Sea surface current estimation using optical satellite imagery of Kelvin wakes and AIS data

IF 11.1 1区 地球科学 Q1 ENVIRONMENTAL SCIENCES Remote Sensing of Environment Pub Date : 2024-09-09 DOI:10.1016/j.rse.2024.114400
Koen Haakman , Martin Verlaan , Avelon Gerritsma , Arne van der Hout
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Abstract

Sea surface currents are of significant importance in various scientific and maritime applications. There are several measurement techniques available to study surface currents, however, they have limitations in spatial coverage and resolution. This study presents a proof-of-concept for a new measurement principle that relies on the difference between a ship’s speed relative to water and land. The approach involves estimating the ship speed vector relative to water from optical satellite imagery of Kelvin wakes. This ship speed vector is subtracted from the ship speed over ground, which is determined from Automatic Identification System (AIS) data, to estimate the surface current. A case study in the Strait of Gibraltar was performed using two months of Sentinel-2 imagery, which yielded 81 visible Kelvin wakes over 25 images. Surface currents were estimated in directions parallel and perpendicular to the ship’s sailing line for each Kelvin wake. The estimated currents were validated with respect to surface currents derived from High-Frequency Radars (HFRs) and modelled currents from the Copernicus Marine Environmental Monitoring Service (CMEMS). The uncertainty in the two surface current components was estimated using triple collocation. After removing 12 data points with large ship course variability, standard deviations of 0.14 and 0.16 m s−1 were estimated for the surface currents along and across the sailing line, respectively. Despite limitations in measurement frequency due to satellite revisit times, cloud cover and Kelvin wake visibility, this new method can provide accurate estimates of sea surface currents in regions with high vessel density.

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利用开尔文涡流光学卫星图像和 AIS 数据估算海面洋流
海面洋流在各种科学和海事应用中具有重要意义。目前有多种测量技术可用于研究海面洋流,但这些技术在空间覆盖范围和分辨率方面存在局限性。本研究提出了一种新测量原理的概念验证,该原理依赖于船舶相对于水面和陆地的速度差。该方法包括从开尔文波的光学卫星图像中估算相对于水面的船速矢量。该船速矢量减去根据自动识别系统(AIS)数据确定的地面船速,即可估算出海面洋流。在直布罗陀海峡进行的案例研究使用了两个月的哨兵-2 图像,在 25 幅图像中发现了 81 个可见的开尔文漩涡。对每个开尔文尾流的平行和垂直于船舶航行线的方向进行了海流估算。根据高频雷达(HFR)和哥白尼海洋环境监测服务(CMEMS)模拟的海流,对估算的海流进行了验证。两个表层海流分量的不确定性是通过三重定位估算出来的。在剔除 12 个船舶航向变化较大的数据点后,估算出沿航 线和跨航线表层流的标准偏差分别为 0.14 和 0.16 m s-1。尽管卫星重访时间、云层和开尔文尾流能见度对测量频率有一定的限制,但这种新方法可以在船只密度较高的地区准确估算海面洋流。
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来源期刊
Remote Sensing of Environment
Remote Sensing of Environment 环境科学-成像科学与照相技术
CiteScore
25.10
自引率
8.90%
发文量
455
审稿时长
53 days
期刊介绍: Remote Sensing of Environment (RSE) serves the Earth observation community by disseminating results on the theory, science, applications, and technology that contribute to advancing the field of remote sensing. With a thoroughly interdisciplinary approach, RSE encompasses terrestrial, oceanic, and atmospheric sensing. The journal emphasizes biophysical and quantitative approaches to remote sensing at local to global scales, covering a diverse range of applications and techniques. RSE serves as a vital platform for the exchange of knowledge and advancements in the dynamic field of remote sensing.
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